CN216965861U - Winding device for PS plate aluminum plate substrate - Google Patents

Abstract

The utility model relates to the technical field of aluminum plate substrate production, in particular to a winding device for a PS plate aluminum plate substrate, which comprises a left winding frame, a right winding frame and a top support mechanism arranged on the winding frames; the winding frame comprises two cover plates which are arranged side by side at intervals on the left and right and at least two support plate components arranged between the two cover plates, each support plate component comprises two guide support plates which are arranged in parallel side by side, the edges of the left side and the right side of each guide support plate are fixedly connected with the cover plates, and a telescopic channel is enclosed between each guide support plate and each cover plate; the top supporting mechanism comprises a supporting frame in a long strip shape and a circular arc-shaped top supporting plate fixed at the tail end of the supporting frame, and the supporting frame is arranged in the telescopic channel and can move along the telescopic channel. When the winding rollers with different diameters need to be adapted, the supporting rod in the at least one supporting mechanism is pushed to move along the telescopic channel, so that the at least one arc-shaped supporting plate is driven to move, the distance between the two arc-shaped supporting plates is changed, and the adaptation to the winding rollers with different diameters is met.

Description

Winding device for PS plate aluminum plate substrate

Technical Field

The utility model relates to the technical field of aluminum plate substrate production, in particular to a winding device for a PS (polystyrene) plate aluminum plate substrate.

Background

In the production process of the aluminum plate, the cut aluminum plate needs to be uniformly packed and conveyed after being rolled by the rolling device, the rolling cylinder is usually arranged on a mechanism capable of rotating at present, the rolling cylinder is made to rotate to realize the collection of the wound roll of the aluminum plate, the diameter of the rolling cylinder is fixed, and the inner diameter of the rolled wide rolling material is the diameter of the rolling cylinder. Consequently, the coiling mechanism that can adjust the internal diameter has appeared on the market, the adjustable internal diameter coiling mechanism of equipment is divided to aluminum strip as disclosed in the chinese patent that application number is 201621386195.9, including spool and rolling driving motor, the spool includes central pivot, cover and establishes adjustable axis mechanism and outer shaft mechanism outside the central pivot, adjustable axis mechanism is the structure of establishing by the annular barrel of a plurality of diameter differences cover in proper order, has seted up the agreeing with cell body at the outer wall of annular barrel, the agreeing with protruding body that sets up on agreeing with cell body and the adjacent annular barrel cooperatees and sets up, outer shaft mechanism includes that staving support and a plurality of cross section are fan-shaped annular zooming piece, zooming piece passes staving support is along radial sliding. The utility model discloses a constitute by central pivot, adjustable axis mechanism and outer shaft mechanism, make holistic internal diameter adjustable, can be convenient adjust a rolling section of thick bamboo internal diameter according to customer's needs, need not to change the rolling section of thick bamboo diameter constantly to intensity of labour has been alleviated, manufacturing cost has been reduced. Although the diameter of the winding drum does not need to be changed, the number of the annular cylinders needs to be increased or decreased when the inner diameter is adjusted, the process still needs to be operated manually, and the hoops need to be sleeved at the two ends of the outer shaft mechanism again after the annular cylinders are increased or decreased every time, and the process is still complicated.

SUMMERY OF THE UTILITY MODEL

The utility model is improved aiming at the problems in the prior art, namely the utility model aims to provide a winding device for a PS plate aluminum plate substrate, which comprises a left winding frame, a right winding frame and a top support mechanism arranged on the winding frames; the winding frame comprises two cover plates which are arranged side by side at intervals on the left and right and at least two support plate components arranged between the two cover plates, each support plate component comprises two guide support plates which are arranged in parallel side by side, the edges of the left side and the right side of each guide support plate are fixedly connected with the cover plates, and a telescopic channel is defined between each guide support plate and the corresponding cover plate; the supporting mechanism comprises a long-strip-shaped supporting frame and a circular arc-shaped supporting plate fixed to the tail end of the supporting frame, and the supporting frame is arranged in the telescopic channel and can move along the telescopic channel.

Preferably, the support plate assembly includes a plurality of fixing hole sets, each fixing hole set includes a first fixing hole formed in one guide support plate and a second fixing hole formed in the other guide support plate, the first fixing hole and the second fixing hole correspond to each other in a direction perpendicular to the guide support plates, and the support frame is provided with a third fixing hole penetrating through the support frame in the direction perpendicular to the guide support plates.

Preferably, the telescopic supporting plate assembly comprises a front supporting plate assembly and a rear supporting plate assembly, the telescopic channels in the front supporting plate assembly and the rear supporting plate assembly extend transversely from front to back, each telescopic channel is internally provided with the supporting mechanism, the arc-shaped supporting plates are semicircular, and the front arc-shaped supporting plates and the rear arc-shaped supporting plates are spliced into a complete circle.

Preferably, the front telescopic channel and the rear telescopic channel are spaced in the vertical height direction.

The telescopic supporting plate assembly comprises more than three supporting plate assemblies, the supporting plate assemblies are arranged in a circumferential array mode, the supporting mechanism is arranged in each telescopic channel, and all the arc-shaped supporting plates are spliced to form a complete circle.

Preferably, the outer edge of the cover plate is circular with a curvature identical to that of the arc-shaped top support plate.

Preferably, the guide support plate is perpendicular to the cover plate, the cross section of the telescopic channel is square, and the cross section of the support frame is matched with the cross section of the telescopic channel.

Preferably, the guide support plate is perpendicular to the cover plate, the cross section of the telescopic channel is square, the cross section of the support frame is also square, the area of the cross section of the support frame is smaller than that of the cross section of the telescopic channel, a nylon pad is arranged between the support frame and the inner wall of the telescopic channel, the guide support plate is provided with a mounting hole, and a screw for fixing the nylon pad penetrates through the mounting hole.

Preferably, the outer edge of one end of the guide support plate is flush with the outer edge of the cover plate, and the nylon pad has a bent part which extends out of the telescopic channel and is bent to abut against the outer edge of the cover plate or the outer edge of the guide support plate.

Preferably, the two side walls of the support frame facing the guide support plate are provided with auxiliary support rods, the extension directions of the auxiliary support rods are consistent with those of the support frame, the side face of the arc-shaped top support plate facing the winding frame is provided with an upper sliding groove and a lower sliding groove, the two sliding grooves are respectively positioned on the upper side and the lower side of the joint of the support frame and the arc-shaped top support plate, a pressure spring, the extension direction of which is consistent with that of the sliding grooves, is arranged in each sliding groove, one end of each pressure spring is fixed at the joint of the support frame and the arc-shaped top support plate, the other end of each pressure spring is fixedly connected with one end of each auxiliary support rod, and the other end of each auxiliary support rod is rotatably connected to the support frame.

Has the advantages that:

the winding rollers used for winding the aluminum plate base can be sleeved on the two arc-shaped supporting plates, when the winding rollers with different adaptive diameters are needed, the supporting rod in at least one supporting mechanism is pushed to move along the telescopic channel to drive at least one arc-shaped supporting plate to move, the distance between the two arc-shaped supporting plates is changed, and the adaptation to the winding rollers with different diameters is met.

Drawings

FIG. 1 is a schematic diagram of the general structure of a winding device for a PS plate aluminum substrate according to the present invention;

FIG. 2 is a schematic view showing the positional relationship between the cover plate and the guide support plate;

FIG. 3 is a schematic view of the plate assembly and telescoping passages;

FIG. 4 is a schematic view of a set of fixed holes, a first mounting hole, and a second mounting hole;

FIG. 5 is a schematic view of the support bracket extending from the telescoping passage;

FIG. 6 is a schematic view of a jacking structure;

FIG. 7 is a schematic view of the auxiliary support rods supporting the arc-shaped top support plate;

in the figure: 1. winding frame, 11, apron, 12, extension board subassembly, 13, telescopic channel, 121, direction backup pad, 122, fixed punch combination, 1221, first fixed orifices, 1222, second fixed orifices, 123, first mounting hole, 124, second mounting hole, 2, shore structure, 21, support frame, 22, arc shore board, 23, spout, 3, nylon pad, 31, kink, 4, auxiliary stay pole, 5, pressure spring.

Detailed Description

The following specific examples are given by way of illustration only and not by way of limitation, and it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made in the examples without inventive faculty, and yet still be protected by the scope of the claims.

The utility model relates to a winding device for a PS (polystyrene) plate aluminum plate substrate, which comprises a left winding frame 1, a right winding frame 1 and a top support mechanism 2 arranged on the winding frames 1; the winding frame 1 comprises two cover plates 11 which are arranged side by side at intervals on the left and right and at least two support plate components 12 arranged between the two cover plates 11, each support plate component 12 comprises two guide support plates 121 which are arranged side by side in parallel, and the edges of the left side and the right side of each guide support plate 121 are fixedly connected with the cover plates 11, so that the guide support plates 121 not only play a role of supporting and connecting the two cover plates 11 on the left and the right, but also enclose a telescopic channel 13 with the cover plates 11; the top supporting mechanism 2 comprises a long-strip-shaped supporting frame 21 and a circular arc-shaped top supporting plate 22 fixed at the tail end of the supporting frame 21, and the supporting frame 21 is arranged in the telescopic channel 13 and can move along the telescopic channel 13. Because the number of the support plate components 12 is at least two, and the telescopic channel 13 in each support plate component 12 is provided with the supporting mechanism 2, so that at least two arc-shaped supporting plates 22 are provided, the two arc-shaped supporting plates 22 can be sleeved with the winding rollers for winding the aluminum plate base, when the winding rollers with different diameters need to be adapted, the supporting rod 21 in at least one supporting mechanism 2 is pushed to move along the telescopic channel 13 to drive at least one arc-shaped supporting plate 22 to move, the distance between the two arc-shaped supporting plates 22 is changed, and the adaptation to the winding rollers with different diameters is met. After the winding roller is installed on the arc-shaped top supporting plate 22, the winding frame 1 can be rotated to wind the aluminum plate substrate.

When the support frame 21 in the top supporting mechanism 2 moves to a certain position in the telescopic channel 13, it is required to be fixed at this position all the time to ensure good support of the wind-up roll, if it only depends on the static friction between the support frame 21 and the inner wall of the telescopic channel 13, the requirement for this static friction is higher, and even if a larger static friction can be achieved, the pushing force capable of pushing the support frame 21 to move is also larger, therefore, in this embodiment, it is preferable that the support frame 21 and the telescopic channel 13 are fixed by other components, independent of the static friction between the two components, specifically, the strip assembly 12 includes a plurality of fixing hole sets 122, the fixing hole set 122 includes a first fixing hole 1221 opened on one guide supporting plate 121 and a second fixing hole 1222 opened on the other guide supporting plate 121, the first fixing hole 1221 and the second fixing hole 1222 correspond to each other in the direction perpendicular to the guide supporting plates 121, the supporting frame 21 is provided with a third fixing hole 211 penetrating through the supporting frame 21 in a direction perpendicular to the guide supporting plate 121, and when the supporting frame 21 moves to a desired position in the telescopic passage 13, the third fixing hole 211 on the supporting frame 21 is aligned to the first fixing hole 1221 above and the second fixing hole 1222 below, and then the three fixing holes are fixed by bolts. The spacing exists between the adjacent fixing hole groups 122, so that a situation that the third fixing hole 211 on the supporting frame 21 is not aligned with the first fixing hole 1221 and the second fixing hole 1222 after only one supporting mechanism 2 is moved to a required position may occur, at this time, the supporting frame 21 is moved to enable the third fixing hole 211 to be aligned with the closest first fixing hole 1221 and second fixing hole 1222, and then another supporting mechanism 2 is moved to enable the two arc-shaped supporting plates 22 to meet the installation requirement of the wind-up roll.

Each of the skid assemblies 12 incorporates a jacking mechanism 2. with respect to the first embodiment of the arrangement of the skid assemblies 12, there are two such skid assemblies 12, and the telescopic channels 13 in the front and the rear two fulcrum assemblies 12 extend along the front and the rear transverse directions, each telescopic channel 13 is provided with the shoring mechanism 2, the arc-shaped top supporting plates 22 are semicircular arcs, the front arc-shaped top supporting plate 22 and the rear arc-shaped top supporting plate 22 are spliced into a complete circle, so that the front arc-shaped top supporting plate 22 and the rear arc-shaped top supporting plate 22 are oppositely arranged and are both semicircular arcs, the two arc-shaped top support plates 22 are spliced into a complete circle in an initial state, the two arc-shaped top support plates are supported with each other more evenly, the overall structure is more stable, the area of each arc-shaped top support plate 22 for supporting the wind-up roll is larger, and the supporting effect on the wind-up roll is better; when the diameter of the winding roller is larger, at least one supporting mechanism 2 is pushed, so that the supporting frame 21 in the pushed supporting mechanism 2 moves along the telescopic channel 13, the distance between the front arc-shaped supporting plate 22 and the rear arc-shaped supporting plate 22 is increased, and the installation of the winding roller with the larger diameter is met. Further improve, preferably two around the flexible passageway 13 has the interval in vertical direction of height, two flexible passageways 13 stagger each other like this, under the initial condition that two circular arc fagging 22 splice each other in front and back, can be with the length extension of support frame 21 in two front and back shoring mechanism 2, both can not have the interference, further improve the displacement stroke of support frame 21 to the maximum diameter that makes this winding device can adapt to the wind-up roll obtains improving.

The second embodiment of the arrangement of the plate assembly comprises more than three plate assemblies 12, the plate assemblies 12 are arranged in a circumferential array, the jacking mechanism 2 is arranged in each telescopic channel 13, all the circular arc-shaped jacking plates 22 are spliced to form a complete circle in an initial state, and the curvatures of all the circular arc-shaped jacking plates 22 are consistent. Because when the circular arc top supporting plates 22 are far away from each other to meet the requirement of installation of the winding roller with the larger diameter, the curvature of the winding roller is smaller than that of the circular arc top supporting plates, the larger the diameter of the winding roller is, the smaller the contact area between the circular arc top supporting plates 22 and the winding roller is, the winding roller cannot be well supported, and the deformation of the winding roller can be caused, so that the more the number of the circular arc top supporting plates 22 is, the more the adverse effect can be reduced. However, if more than three arc-shaped top support plates 22 support the wind-up roll at the same time, the moving distances of all the arc-shaped top support plates 22 are required to be completely consistent after leaving the initial state of mutual splicing.

In this embodiment, the outer edge of the cover plate 11 is preferably circular with a curvature identical to that of the arc-shaped top support plate 22, so that when all the arc-shaped top support plates 22 are spliced to form a complete circle, the inner side surface of each arc-shaped top support plate 22 can abut against the outer edge of the cover plate 11, and the structure is stable. The guide support plate 121 is preferably perpendicular to the cover plates 11, so that the guide support plate 121 preferably supports the left and right cover plates 11, and further so that the cross-sectional profile of the telescopic passage 13 is square, the telescopic passage 13 is structurally stable, and the cross-sectional profile of the support frame 21 is matched with the cross-sectional profile of the telescopic passage 13 because the support frame 21 needs to be able to move in the telescopic passage 13. However, in actual use, the support frame 21, the cover plate 11 and the guide support plate 121 are made of iron, and are relatively slid against each other, which requires a high level of smoothness, thereby increasing the processing cost, so in this embodiment, it is preferable that the guide support plate 121 is perpendicular to the cover plate 11, the cross-sectional profile of the telescopic channel 13 is square, the cross-sectional profile of the support frame 21 is also square, and the area of the cross-sectional profile of the support frame 21 is smaller than the cross-sectional area of the telescopic channel 13, the nylon mat 3 is disposed between the support frame 21 and the inner wall of the telescopic channel 13, the guide support plate 121 is provided with a first mounting hole 123, the cover plate 11 is provided with a second mounting hole 124, and screws for fixing the nylon mat 3 penetrate through the first mounting hole 123 and the second mounting hole 124. Fix nylon pad 3 between the inner wall of support frame 21 and flexible passageway 13 can reduce friction, noise reduction, but also can compensate the smoothness degree error between support frame 21 and the flexible passageway 13 inner wall, reduce the processing cost. In a further improvement, preferably, an outer edge of one end of the guide support plate 121 is flush with an outer edge of the cover plate 11, and the nylon gasket 3 has a bent portion 31 extending out of the telescopic channel 13 and abutting against the outer edge of the cover plate 11 or the outer edge of the guide support plate 121 after being bent. Thus, the arc-shaped supporting plate 22 is abutted against the cover plate 11 in the initial state to enable the middle to be separated by the nylon cushion 3, and the arc-shaped supporting plate 22 is prevented from being scratched by a sharp part of the outer edge of the cover plate 11; and in the process that the jacking mechanism 2 is restored to the initial state from the extension state, the arc-shaped jacking plate 22 can play a role in buffering when abutting against the extrusion cover plate 11.

When the top supporting mechanism 2 is in a state of extending out of the winding frame 1, the circular arc top supporting plate 22 is only supported by the supporting frame 21, and the rest parts of the circular arc top supporting plate 22 are not supported at all, so that the structural strength is low. Therefore, the embodiment is further improved, preferably, the support frame 21 is provided with auxiliary support rods 4, extending directions of which are consistent with those of the support frame 21, on two side walls facing the guide support plate 121, the arc-shaped top support plate 22 is provided with an upper sliding groove 23 and a lower sliding groove 23 on a side facing the winding frame 1, the two sliding grooves 23 are respectively located on the upper side and the lower side of a joint of the support frame 21 and the arc-shaped top support plate 22, pressure springs 5, extending directions of which are consistent with those of the sliding grooves 23, are arranged in the sliding grooves 23, one end of each pressure spring 5 is fixed at the joint of the support frame 21 and the arc-shaped top support plate 22, the other end of each pressure spring 5 is fixedly connected with one end of each auxiliary support rod 4, and the other end of each auxiliary support rod 4 is rotatably connected to the support frame 21. When the top bracing mechanism 2 is in an initial state, the support frame 21 is positioned in the telescopic channel 13, and the upper and lower auxiliary support rods 4 are pressed between the support frame 21 and the inner wall of the telescopic channel 13; when propping up mechanism 2 and stretching out outwards, support frame 21 begins to stretch out flexible passageway 13 gradually, waits to stretch out flexible passageway 13 to the position that auxiliary stay bar 4 is connected with the rotation of support frame 21, and auxiliary stay bar 4 has just lost external restriction, and the pressure spring 5 of compressed begins to stretch this moment, drives auxiliary stay bar 4 one end and keeps away from support frame 21 removes, and auxiliary stay bar 4 wholly rotates around the other end to and support frame 21 between have the angle to play the auxiliary stay effect to convex fagging 22, effectively improve the structural strength of convex fagging 22.

While the utility model has been described with reference to specific embodiments, the utility model is not limited thereto, and various equivalent modifications and substitutions can be easily made by those skilled in the art within the technical scope of the utility model. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A winding device for a PS plate aluminum plate base is characterized by comprising a left winding frame (1), a right winding frame (1) and a top support mechanism (2) arranged on the winding frames (1); the winding frame (1) comprises two cover plates (11) which are arranged side by side at left and right and are arranged at intervals and at least two support plate assemblies (12) arranged between the two cover plates (11), each support plate assembly (12) comprises two guide support plates (121) which are arranged side by side in parallel, edges of the left side and the right side of each guide support plate (121) are fixedly connected with the corresponding cover plate (11), and a telescopic channel (13) is defined between each guide support plate (121) and the corresponding cover plate (11); the top supporting mechanism (2) comprises a long supporting frame (21) and a circular arc-shaped top supporting plate (22) fixed to the tail end of the supporting frame (21), and the supporting frame (21) is arranged in the telescopic channel (13) and can move along the telescopic channel (13).

2. The winding device for PS plate aluminum plate bases according to claim 1, characterized in that the support plate assembly (12) comprises a plurality of sets of fixing holes (122), the fixing holes (122) comprise a first fixing hole (1221) opened on one guide support plate (121) and a second fixing hole (1222) opened on the other guide support plate (121), the first fixing hole (1221) and the second fixing hole (1222) correspond to each other along a direction perpendicular to the guide support plate (121), and the support frame (21) is provided with a third fixing hole (211) penetrating through the support frame (21) along a direction perpendicular to the guide support plate (121).

3. The winding device for the PS plate aluminum plate base according to the claim 2 is characterized by comprising a front support plate assembly (12) and a rear support plate assembly (12), the telescopic channels (13) in the front support plate assembly and the rear support plate assembly (12) extend along the front and rear transverse directions, the top support mechanism (2) is arranged in each telescopic channel (13), the circular arc-shaped top support plate (22) is a semi-circular arc, and the front and rear circular arc-shaped top support plates (22) are spliced into a complete circle.

4. A coiler for aluminum PS plates based on plates according to claim 3, characterized in that the front and rear telescopic channels (13) are vertically spaced.

5. The winding device for PS plate aluminum plates is characterized in that more than three support plate assemblies (12) are included, the support plate assemblies (12) are arranged in a circumferential array, each telescopic channel (13) is provided with the top bracing mechanism (2), and all the circular arc-shaped top bracing plates (22) are spliced to form a complete circle.

6. A winding device for PS plate aluminium substrates according to any one of claims 2 to 5, characterized in that the outer edge of the cover plate (11) is circular with a curvature conforming to that of the circular arc-shaped top support plate (22).

7. The winding device for PS plate aluminum plate bases according to the claim 6, characterized in that, the guiding support plate (121) is perpendicular to the cover plate (11), the cross section contour of the telescopic channel (13) is square, the cross section contour of the support frame (21) is matched with the cross section contour of the telescopic channel (13).

8. The winding device for the PS plate aluminum base according to claim 6, wherein the guide support plate (121) is perpendicular to the cover plate (11), the cross section of the telescopic channel (13) is square, the cross section of the support frame (21) is also square, the area of the cross section of the support frame is smaller than that of the telescopic channel (13), a nylon cushion (3) is arranged between the support frame (21) and the inner wall of the telescopic channel (13), a first mounting hole (123) is formed in the guide support plate (121), a second mounting hole (124) is formed in the cover plate, and screws for fixing the nylon cushion (3) are arranged in the first mounting hole (123) and the second mounting hole (124) in a penetrating manner.

9. The winding device for PS plate aluminum substrates according to the claim 8, characterized in that the guiding and supporting plates (121) have one end with the outer edge flush with the outer edge of the cover plate (11), the nylon mat (3) has a bending part (31) which extends out of the telescopic channel (13) and abuts against the outer edge of the cover plate (11) or the outer edge of the guiding and supporting plates (121) after bending.

10. The winding device for the PS plate aluminum plate substrate according to claim 9, wherein two side walls of the support frame (21) facing the guide support plate (121) are provided with auxiliary support rods (4) having extension directions consistent with those of the support frame (21), the side surface of the arc-shaped top support plate (22) facing the winding frame (1) is provided with an upper sliding groove and a lower sliding groove (23), the two sliding grooves (23) are respectively positioned at the upper side and the lower side of the joint of the support frame (21) and the arc-shaped top support plate (22), the sliding grooves (23) are internally provided with pressure springs (5) having extension directions consistent with those of the sliding grooves (23), one ends of the pressure springs (5) are fixed at the joint of the support frame (21) and the arc-shaped top support plate (22), and the other ends of the pressure springs (5) are fixedly connected with one end of the auxiliary support rods (4), the other end of the auxiliary supporting rod (4) is rotatably connected to the supporting frame (21).

Images